A Portable Satellite Station Part 4 – 2.0 Station First Contacts!


Station Packed and Ready for Transport

Station Packed and Ready for Transport

With our new 2.0 Satellite station built, tested, and packed; we were ready to try it in a portable environment. Fortunately, the Nashua Area Radio Club had a Technician License class coming up and we thought that the new station test would be a great way for our students to learn about Amateur Radio Satellites.

Satellite Status from AMSAT Website

Satellite Status from AMSAT Website

Final preparations included checking the operational status of potential satellites on the AMSAT website. The page shown above is like a spotting cluster for LEO Satellites – it shows satellite activity as reported by HAM satellite operators. Using this information, we configured MacDoppler to track the active satellites.

Satellite Pass Predictions

Satellite Pass Predictions

Next, we used MacDoppler to generate pass predicts for the weekend of our Technical Class. We assembled this data for all of the potential satellites and color-coded the available passes to identify those which had the best chance of producing contacts.

With this done, we loaded our portable tower, antennas, and all of the rest of the gear into our pickup truck and transported it to the class site.

Sateliite Antennas Setup Portable

Satellite Antennas Setup Portable

The first step at the class site was to unload all of our gear and move the portable tower to a suitable location. We used a compass to orient the tower to true north and leveled it. We used the weight bags that we made up to anchor the tower securely and then installed the antennas, rotator loops, and control cables. The antenna system worked out very well in the portable environment and was easy to set up.

Satellite Antenna Details

Satellite Antenna Details

Here’s a closer to look at the LMR-400 UF coax cables which connect the antennas to the rest of the system. The loops just behind the antennas are necessary to keep the coax from effecting the pattern of the antennas. The coax cables shown were made long enough to allow the antennas to be rotated through their full travel in the azimuth and elevation directions without binding.

Satellite Station Portable - Radio and Supporting Equipment

Satellite Station Portable – Radio and Supporting Equipment

The final step in the portable setup was to put the IC-9100 Transceiver and Supporting Equipment together in the building and check everything out. As soon as we got everything hooked up and working, we heard an ON4 station through FO-29 which was near the end of a low angle pass. A very good sign!

We took some time to fine tune the calibration of our rotators and to check the operation of the computer controls – everything checked out fine. The video above shows MacDoppler controlling the Azimuth/Elevation rotator and the IC-9100 Transceiver during the testing.

First Contact using New 2.0 Station (AO-85)

First Contact using New 2.0 Station (via AO-85)

With all the setup done, it was time to try to make our first contact. Fortunately, we did not have long to wait. We caught a medium angle pass of AO-85, a U/V Mode FM Easy Sat. With MacDoppler setup and tacking, we immediately heard contacts being made through AO-85. I gave a whistle and adjusted my uplink VFO until I heard my signal coming back through AO-85. I gave a quick CQ call and immediately got a response from Jonathan, NS4L in Virginia, USA! It took on a few seconds to exchange call signs and grid squares and our first contract with our new station was in the log.

Explaining Satellite System to License Class

Explaining Satellite System to License Class

Our Technician License Class students were very interested in the station. We spent some time explaining the setup and demonstrating how it worked. We made more contacts between our class sessions using AO-85 and FO-29 (a V/U Mode Linear Transponder Satellite). Our most interesting contact was with Burt, FG8OJ in Guadeloupe through FO-29. It was great to work DX using the new station during the first time we used it.

We learned several things during our first use of the new station. First, while the 35 ft. maximum separation allowed between the antenna system and the rest of the station is adequate in many applications, the antenna system’s close proximity to the building we were in blocked passes to the west of us with this separation. We are going make up a second set of feed lines using a pair of 100 ft. long 7/8″ hardline coax cables to allow for a greater separation in portable deployments such as this one.

We were glad that we had the Heil Pro 7 Headset with us and we used it for most of our contacts. The separate speaker allowed our students to hear the contacts well and the boom microphone on the Pro 7 Headset eliminated feedback due to our own voice coming back through the satellites. We improvised a mono to stereo converter cable to connect the Heil Pro 7 Headset to one of the two speaker outputs on the IC-9100 Transceiver. This allowed the radio to drive the separate speaker and the headphones at the same time.

We were glad to have the low-noise preamps available. These were especially useful during low-angle satellite passes and the sequencing setup that we built worked well.

All in all, our first test of our new 2.0 Portable Satellite station was a success. Our license classes students enjoyed learning about Amateur Satellites and had fun along with us making contacts through a few of them. Our next goal will be to get packet modes and APRS working with our setup. We plan to do another article in this series when this part of our project is completed. Other articles in this series include:

You may also be interested in the satellite station at our home QTH. You can read more about that here.

Fred, AB1OC

Why Ham Radio?


Scorpion SA-680 Screwdriver Antenna

Fred’s Truck with Antenna

Every so often, I drive Fred’s truck into work and people ask me what that big antenna on the back of the truck is for. I explain to them that it is for Ham Radio.  But the reply is usually, why ham radio – isn’t that outdated technology?  We have cell phones and IM, etc…what do we need Ham Radio for?  So I thought I would put down my thoughts as a relatively new Ham about why I enjoy spending so much of my time with Ham Radio.

amateur_radio_could_save_lives_in_times__2205260000_9445423_ver1-0_640_480

Amateur Radio for Public Service

Public Service

The number one reason we still need Ham Radio along with all the other technology we now have is for public service.  When there is a disaster and cell phones, television, etc are all not working, Ham Radio operators provide the critical communication.

Ham Radio operators help locally to keep hospitals and first responders in contact with each other to help those affected by the disaster.

Hams also use our ability to communicate around the world on HF bands to help family members around the world to get in touch with loved ones affected by a disaster.

Ham Radio operators have been on the scene helping in every disaster from the earthquakes in Nepal to the recent flooding in California.

hamsats

Amateur Radio Cube Satellites

Technology and the Maker Movement

I only became a Ham 5 years ago but many of my fellow Ham Radio operators got their license when they were in their early teens and used what they learned to launch their careers. Many have had very successful careers in STEM fields, all launched by their interest in Ham Radio at a young age.  As technology advances, so does the technology used in our hobby.   We even have a nobel laureate, Joe Taylor K1JT who is a ham. Joe has developed weak signal digital communication modes that let us communicate by bouncing signals off the moon!

As technology has advanced, so has the use of it in Ham Radio.   Most Ham Radio operators have one or more computers in their shack.  Many also have a software designed radio (SDR), where much of the radio functionality is implemented using Software, we use sound cards to run digital modes, which are a lot like texting over the radio, and we use the internet extensively as part of operating.  We can also make contacts through satellites orbiting the earth and even the International Space Station.

Most hams love do-it-yourself technical projects, including building a station, home brewing an antenna, building a radio or other station component.  In my day job, I am a program manager for software development projects, but its been a while since I have built anything. As a Ham I taught myself how to code in Python and about the Raspberry Pi and I built the DX Alarm Clock.

vk6lc

QSL Card from VK6LC in Western Australia

International Camaraderie

One of the coolest things about being an amateur radio operator is that you can communicate with other hams all over the world. Ham Radio is an international community where we all have something in common to talk about – our stations and why we enjoy ham radio.    The QSL card above is from a memorable QSO with Mal, VK6LC, from Western Australia, who was the last contact that I needed for a Worked All Zones award.  I must have talked to him for 1/2 hour about his town in Australia and his pet kangaroos!

world-map

Amateur Radio Map of the World

Geography Lesson

I have learned much about geography from being on the air and trying to contact as many countries as I can.  There are 339 DX Entities, which are countries or other geographical entities and I have learned where each one is in order to understand where propagation will allow me make a contact.  I have learned a great deal about world geography. Through exchanging QSL cards often get to see photos from so many areas of the world.

dxcc-challenge-award

DXCC Challenge Award Plaque

Achievement – DXing and Contesting

DXing and Contesting provide a sense of achievement and exciting opportunity for competition. Many Hams work toward operating awards. You can get an operating award for contacting all 50 states, contacting 100 or more countries, contacting Islands, cities in Japan, countries in Asia, or anything else you can imagine.  Each of these operating awards provides a sense of accomplishment and helps to build skills.  Contesting builds skills through competition among Hams to see who can make the most contacts with the most places in 24 or 48 hours. Contesting also improves our operating skills and teaches us to copy callsigns and additional data accurately.

anita-instructor

Teaching a License Class

Teaching Licensing Classes – Passing it On

Recently I have joined a team of club members who teach license classes to others who want to get licensed or upgrade their existing Amateur Radio licenses.  Teaching provides a way to improve my presentation skills and also helps me to really understand the material that we teach about Amateur Radio.  It is always a thrill at the end of the class to see so many people earn their licenses or upgrades.

There are so many interesting aspects of Ham Radio which is what makes is such a great hobby.  Getting your license can open up a world of possibilities.  Upgrading to a new license class provides more opportunities to communicate over longer distances.  Ham Radio clubs, including our local club, the Nashua Area Radio Club,  provide many resources to help you get your first licenseupgrade to a new license class, and learn about the many aspects of our hobby.

Building And Operating A Mobile HF Station


Mobile HF Presentation

Presentation On Building And Operating A Mobile HF Station

We recently had the chance to do a presentation on building and operating a mobile HF station for the Nashua Area Radio Club here in New Hampshire, USA. I thought it would be interesting for our readers to see this presentation as it contains some new information that we have not previously covered on our Blog.

Mobile HF Antennas

Mobile HF Antennas

Safety in mounting mobile antennas and anything else on the exterior of you vehicle is a primary concern. This was discussed in some detail during the presentation. The best source to understand safety considerations and proper installation and mounting of Mobile HF antennas is Alan Applegate’s excellent website, K0BG.com.

The most important part of any Amateur Radio Station is the antenna system. This is especially true in a Mobile HF Station because antennas in these applications are almost always short loaded verticals. To create an effective antenna system for a Mobile HF application, one must pay extra attention to the “3 R’s” – Radiation Resistance, Loading Coil Loss, and Ground Loss. Radiation Resistance (a measure of the antenna’s ability to transfer transmitter power to radiated waves) is the “good R” and the other two R’s dissipate power from our transmitter in the form of heat.

Mobile Antenna System Typical Parameters

Mobile Antenna System Typical Parameters

There is some good information on the typical efficiency in the ARRL Antenna Book. As you can see from the table above, the Radiation Resistance of a mobile antenna becomes quite small on the lower bands (40m, 80m and 160m). Also note that as the antenna becomes increasingly shorter to RF on these bands, more loading coil inductance is needed to make up for the short radiator length on these bands. On these bands, Coil Loss and Ground Loss can easily dissipate most of our transmit power in a very inefficient antenna system. The net of all this is that one must pay careful attention to controlling the Ground and Coil losses while trying to make the Radiation Resistance of the antenna as high as possible. One good way to improve the Radiation Resistance of a mobile antenna is to make the whip longer. For more on mobile HF antenna efficiency, please consult K0BG.com.

Scorpion SA-680 Screwdriver Antenna

Scorpion SA-680 Screwdriver Antenna With Rod And Cap Hat

Here in New England, we have many low tree branches which limit the practical length of a mobile whip. A good technique, if the installation permits it, is to use top loading in the form of a Capacitance Hat. The Cap Hat makes the antenna appear longer and thus increases the Radiation Resistance of the Rod below it. The increase in apparent electric length at Radio Frequencies also means that less loading coil inductance will be required which in turn also means that the Coil Loss is lowered. This is a win-win. The only problem is that this sort of setup significantly increases the wind load on the antenna when driving so a mechanically strong antenna and mounting system is required for a safe installation. Ground Losses can be minimized by making the vehicle on which the antenna is installed a good RF surface to couple to the ground. This is best accomplished by proper Bonding of the metal surfaces on the vehicle to each other and the vehicle’s frame is there is one.

Mobile HF Equipment

Mobile HF Equipment

The next part of the presentation covered the selection of equipment for a Mobile HF Station. Safety and good usability are the paramount concerns here. I believe that a Transceiver should have the following attributes to be a good choice in Mobile HF applications:

  • It should have at least 100W output on the HF bands
  • It must have an effective Noise Blank and a good Noise Reduction system
  • It should have a removable control head to facilitate mounting of the radio’s controls and display where they can be easily seen without taking one’s eyes of the road

It is extremely important to consider safety in all things mobile HF. Safe, non-distracting mounting of controls is a top concern. One also needs to consider what could happen in a crash. Loosely mounted parts or anything that can get between a deploying air bag and the vehicle’s passengers are among some of the important safety concerns. One should also consider accessories that facilitate safe mobile operation. Automated antenna controllers and a voice recorder to capture contact details for later transcription in logs are some good items to consider.

Bonding And Choking

Bonding And Choking

I believe the bonding and the associated effect on noise levels and ground losses is perhaps the most important factor  in determining the performance of a mobile HF station. “If you can’t hear them, you can’t work them.” Proper bonding of the exhaust system, body parts and the engine’s ground are some of the key items in this area. You can read more about how we did this here. To give some idea of how important this area is, I was able to take the initial S9+ noise levels (with the radio’s preamp off) of my F-150 pickup truck prior to proper binding to an S3-4 level with the radio’s preamp on. This is a huge improvement and is a primary reason for the DX performance of our mobile HF station. Bonding also lowers the Ground Losses of the installation which improves the efficiency of the antenna system when transmitting as well – again a win-win. Proper bonding is not expensive but it does take some work. One must also be careful when drilling holes for the installation of ground straps that you do not accidentally drill into wiring harnesses, gas tanks, electronic boxes and other vehicle systems. Again, consult K0BG.com for more information on how to properly Bond your vehicle. If you use a screwdriver antenna, you must also properly choke your control leads to keep RF out of your vehicle and its electronics. Here’s some good information explaining how to do this.

Stage 1 Mobile HF Station

Stage 1 Mobile HF Station

I am a proponent of building a Mobile HF Station in stages from a simple one using to perhaps a more involved project later on. This allows the operator to have a lot of fun on the air with a reasonable initial amount of work and expense. The approach also provides the opportunity to see how the various steps outlined in the presentation contribute to improved performance. Our stage one installation consisted of a 100W transceiver and Hamstick antennas. You can read more about our Stage 1 installation here. The focus at this step includes proper bonding/noise control, safe installation of a suitable transceiver and simple Hamstick antennas. This stage gives you an inexpensive and effective, one band at a time, station on the 20m and higher HF bands. This type of installation is not difficult to do as is possible on most vehicles.

Stage 2 Mobile HF Station

Stage 2 Mobile HF Station

A Stage 2 installation would probably involve a multi-band remotely controlled antenna – typically a screwdriver antenna. You can read more about our Stage 2 installation here. It’s important to choose and efficient screwdriver antenna. You can read more about the choices and what to look for here. We used a Scorpion SA-680 Screwdriver Antenna and are very happy with it. This is a big antenna and you must carefully focus on a strong and secure mounting system to use it safely. Our Stage 2 station was QRV on all HF bands from 80m – 10m and utilized a screwdriver controller to automate the adjustment of the antenna when changing frequencies and bands. We use a 4′ rod and a Cap Hat to improve the efficiency of the antenna system as well. This is an important safety feature and should be strongly considered in any screwdriver antenna installation.

Stage 3 Mobile HF Station

Stage 3 Mobile HF Station

A Stage 3 Station is probably not for most folks due to the added complexity and cost but it does create a “work the world” Mobile HF Station and can open the door to effective operation on 160m from a Mobile Station. This step involves the installation of an Amplifier and may also include extension of the antenna system to operate on 160m. I would have to say that the upgrade to Stage 3 was as much work in our station as Stages 1 and 2 combined. It also brings a new set of important safety considerations due to the high current DC powering required by a mobile amplifier. You can read more about this Stage of our installation here.

Mobile HF In A Car

Mobile HF In A Car

It is also quite feasible to install a Mobile HF station in a car. The slide above shows Dave, N1RF’s installation of a Stage 2 setup in his Honda Accord. The mount is a custom-made unit done by a local fabricator. Also note the equipment mounting on the fold down rear seat of the vehicle. This installation uses and Icom IC-7100 and has produced some great DX contacts including on to the Philippines from New England on 20m using 100w.

Operating Mobile HF

Operating Mobile HF

Our presentation included some tips for operating a Mobile HF station. See the graphic above for details. I believe that even a well executed Stage 1 station coupled with good operating technique and some patience can yield a DXCC in many parts of the US and Europe. I was able to make many contacts to Europe and some to Australia, New Zealand, Hawaii and Alaska using our Stage one setup. If you progress through Stages 2 and 3, this gets easier. We have worked over 110 DXCCs from our Mobile HF Station and confirmed 100 in about 9 months with our Stage 3 setup. The Stage 3 setup has produced some of our most memorable QSO’s to date including my very first 75m phone contact ever to Japan and a contact with Ulleung Island, South Korea on the 40m band using SSB phone (these contacts were made from the East Coast of the USA).

Fun With Mobile HF - US Counties Tour

Fun With Mobile HF – US Counties Tour

There are lots of fun things that you can do with a well-built mobile HF station. I have worked many DX contacts from the mobile for example and some have netted as many as 75+ DXCC’s in a weekend. County Hunting and Tours to activate rarer US Counties are another popular activity for Mobile HF operators. You can read about one such County Hunting tour here on our Blog.

We have found building and operating a Mobile HF station to be a lot of fun! It’s almost like beginning our Amateur Radio experience all over again.

– Fred (AB1OC/M)

A DX’ing Milestone Reached – 300 DXCC’s Worked


Nepal 9N DXpedition

Nepal 9N DXpedition (Courtesy 9n.dxpeditions.org)

2015 has continued to be my best year for working new DX in my relatively short 4 years as an Amateur Radio operator. I have been trying to reach a personal goal of working my 300th DXCC for several months now and I’ve been just one All Time New One (ATNO) short for a few weeks now. I’ve been able to work one or more new Band-DXCC’s every day in 2015 with a total of 112 new Band-DXCC’s worked so far this year. About a week ago, it looked fairly certain that my 300th ATNO was in sight with the 9N DXpedition to Nepal about to come on the air. Just as they did, we had some very strong solar flare/Coronal Mass Ejection (CME) activity which wiped propagation between my QTH in New England, USA and Nepal. 9N Nepal is a fairly rare one here in the USA (#42 on ClubLog’s most wanted list for North America) so I really wanted to put 9N in the log while it is active.

 

VOCAP Propegation Prediction Between 0N Nepal and NH USA

VOCAP Propagation Prediction Between 9N Nepal and NH USA

I have been listening diligently each day during the periods of best propagation (see the excellent VOCAP propagation prediction website to create custom propagation predictions). This morning the K and A indices were down and the most up to date VOCAP prediction between Nepal and my QTH suggested that today would be better. I went down to the shack early before the start of my work day and found Janusz, 9N7WE coming in strong on 15m SSB. I took just two tries to get him in the log.

At this point, the remaining DXCC’s that I need are, for the most part, the rare ones. Both Anita (AB1QB) and I have begun to use the tools provided by the DXLab Suite, ClubLog, various DX newsletters available on the internet, automated monitoring of the spotting clusters, and computer generated propagation predictions to help us to work the remaining ATNO’s as well as achieve our operating award goals. For more on how we use these tools, please see our related DX’ing post here on this blog.

– Fred (AB1OC)

2015 DX’ing – One Of The Best Years Ever So Far


March 2015 DXpeditions

March 2015 Featured DXpeditions

2015 has been quite a year for working new DXCC’s for us so far. This month is the most productive that I have experienced with more than 20 interesting DXpeditions on. We’ve been fortunate to have the chance to work the DXpedition on Navassa Island (#2 on ClubLog’s most wanted list) which took place in February of this year. In addition those show above, there are also quite a few small operations including E51UFF on North Cook Island and VP8DOZ on South Georgia Island (#9 on ClubLog’s most wanted list) being on. Also, Eritrea, E30FB which is operating right now is #20 on ClubLog’s most wanted list. All of this makes for a great opportunity to work all-time new ones as well as to add new DXCC Band-Points.

Anita, AB1QB has worked 13 all-time new DXCC’s and I’ve worked 5 all time new DXCC’s since the beginning of 2015. Anita has broken the 250 DXCC barrier and I’m just 2 away from breaking 300. There have also been quite a few new IOTA’s for us. Anita has added 11 IOTA’s this year and I’ve added 14. We also added more than 85 DXCC Band-Points each towards our DXCC Challenge Award totals. I have set a goal to work at least one new DXCC Challenge Band-Point each day in 2015 in hopes of getting to the 2,000 DXCC Band-Point level before the end of the year (I am currently at 1,785 worked).

Shack Board

Shack Board – Upcoming Operations and Contests

We use a number of different sources to find out about these operations. Our favorite ones are The Weekly DX, the DX-World.net (the source of the graphic above) and DX Publishing’s QRZ DX. These are all excellent sources for finding out about upcoming DXpeditions, small DX operations and IOTA activations. Working DX contests such as CQ WW DX, the ARRL DX Contests and CQ WW WPX are also excellent ways to work new DXCC’s and new Band-Points. We have a whiteboard in our shack where we record upcoming operations that we need as well as contests that we want to participate in. This helps us keep track of what is coming up that we need.

DXLab SpotCollector

DXLab SpotCollector

We also use the SpotCollector component of the DXLab Suite to help us identify new DXCC’s, Band-Points, IOTA’s and WAZ Band-Zones that we need in real-time when they come on. We have also used SpotCollector to alert us when stations that we need for the Yearly CQ DX Marathon are on the air.

Spot Sources Configuration In SpotCollector

Spot Sources Configuration In SpotCollector

We have configured SpotCollector (the spotting component of DXLab) to aggregate spots from a variety of sources. Our logs are kept in DXLab and we program the SpotCollector to filter all of the incoming cluster spots and CW/RTTY Skimmer data to tell us about high-priority stations that we want to work when they are on the air. The key to this approach is careful filtering of incoming cluster and skimmer spots to only display and forward the most important opportunities.

Award Setup in DXKeeper

Award Setup in DXKeeper

The first step in the filtering is to configure DXLab’s DXKeeper component for the types of contacts that we are interested in. This is done in the Award configuration section of DXKeeper.

SpotCollector SQL Filter

SpotCollector SQL Filter

We then use the powerful SQL script capability of SpotCollector to only tell us about stations that we are willing to “head for the shack to work”. SpotCollector is configured to send the appropriate spots as text messages via email to our mobile phones so that we know immediately when something that we need comes on. The filter above selects all-time new DXCCs, new DXCC Band-Points, new IOTA’s and new WAZ Band-Zones which are spotted in the Eastern or Central United States. The filter also picks up new Band-States for the ARRL Worked All States Award.

We hope our readers who are interested in working DX and IOTA’s will be able to find some time to work so of the operations that are on the air right now. This time period is certainly one that has a lot of potential to put “new ones” in the log. If you use the DXLab Suite, you might try some to use some of the more advanced features of SpotCollector to help you to better find stations that you want to work when they are on.

– Fred (AB1OC)

2014 Amateur Radio Highlights


2014 Readers Around The World

2014 Readers Around The World

It is once again time for our annual 2014 Year in Review post. First, I’d like to thank our readers for their continued interest in our Blog. Our blog was viewed about 100,00 times in 2014 from 165 countries around  the world. You, our readers have made 2014 our busiest year yet and this provides Anita (AB1QB) and me with great encouragement to continue to provide content for our readers.

2014 was a very busy year in Amateur Radio for us. Our activities included a continued focus on station building, contesting, WRTC 2014, special events, providing presentations to help other in the hobby learn about new things, attending several HAM Events, progress on operating awards, and most importantly – time spent on the air operating.

microHAM Station Master Deluxe Antenna Controller

microHAM Station Master Deluxe Antenna Controller

We upgraded our fixed station to include a microHAM Station Automation system this year. This was a major project that added some nice SO2R capabilities to our Multi-one station as well as automated the sharing of our antennas between our two SO2R Operating positions. More of this project can be found here:

Eggbeater Antennas And Preamps SystemsOn Tower

Eggbeater LEO Satellite Antennas And Preamps Systems On Tower

We also added LEO Satellite capabilities to our station with the addition of some new antennas and electronics on our tower. This allowed us to make our first contacts through LEO birds with linear transponders. Our articles on this project include:

Scorpion SA-680 Screwdriver Antenna

Our Mobile HF Station – Screwdriver Antenna

Our final major station building project was the construction of a state of the art mobile HF station in our Ford F-150 pickup truck. We did this project in phases starting with a simple setup using a 100W radio and HAM Stick antennas through the installation of a Screwdriver Antenna System for the 160m – 10m HF bands and concluding with the installation of an amplifier to enable high power mobile HF operation. You can view the articles on this project here:

AB1OC Operating In CQ WPX SSB

AB1OC Operating In the 2014 CQ WPX SSB

Anita (AB1QB) and I continued to be active in several contests this year. We both continued to develop our skills as contesters and our scores and place in the rankings reflected this. You can read more about our contesting activities and what we learned in the following articles:

Hollis Site Support Team And Referee

WRTC 2014 Hollis Site Competitors, Support Team And Referee

We were also fortunate to host one of the WRTC 2014 competition sites. Along with our friend Scott Anderson, NE1RD, Anita and I acted as site managers for the only WRTC 2014 Competition Site in New Hampshire. You can read more about our WRTC 2014 experiences here.

13 Colonies Special Event QSL Card For K2K New Hampshire

13 Colonies Special Event QSL Card For K2K New Hampshire

Special event operations were a particularly fun part of our on air activities in 2014. We operated as K2K, New Hampshire in the 13 Colonies Special Event, W1AW/1 as part of the ARRL Centennial QSO Party, and as N1FD Celebrating the 35th Anniversary of the Nashua Area Radio Club. It’s great fun to operate in these events and the experience running the pileups that result continued to help Anita and me to develop our operating and contesting skills.

Introduction To The DXLab Suite

Introduction To The DXLab Suite

We make it a priority to develop a significant amount of our Amateur Radio time to helping others in the hobby learn new things. In addition to writing this Blog, Anita and I try to create and deliver several presentations each year on a variety of topics of interest to the Amateur Radio Community. Our presentation this year included an update of our presentation on Amateur Radio Station Design and Construction and an Introductory Presentation on the DXLab Software Suite. We are always interested in working with Amateur Radio Clubs to deliver the presentation either in person where practice or over the web.

Anita (AB1QB) and I with Bob Heil (TBD)

Anita (AB1QB) and I with Bob Heil (K9EID)

We had the fortune to meet some of the legends in Amateur Radio this past year. Anita and I had the opportunity to get meet Bob Heil, K9EID and to appear on his Ham Nation podcast. Bob is an amazing gentlemen and we feel truly fortunate to have the opportunity to get to know him. We also had the opportunity to meet Fred Lloyd, AA7BQ, the President and Founder of QRZ.com. Fred visited our station and did an article about our station on QRZ.com. Anita and I both learned a great deal about HAM Radio and how it came to be what it is today as a result of the time these fine folks spent with us.

Joe Taylor's WSJT Presentation

Joe Taylor’s WSJT Presentation At the ARRL Centennial Convention

Amateur Radio Conventions and HAM Fests were a major part of our Amateur Radio fun again this year. We were fortunate to attend and speak at the ARRL Centennial Convention in Hartford, CT USA this year – truly a once in a lifetime Amateur Radio experience. We also attended the Dayton Hamvention in 2014 where we had a chance to see all of the latest and greatest in Amateur Radio Equipment.

Our 2014 QSOs By Callsign

Our 2014 QSOs By Callsign

We were quite active on the air making almost 26,000 contacts between the two of us. As you can see from the graphic above, about 45% of our contacts were as part of Special Event Operations. We also made a little over 500 contacts from our mobile station, working over 100 DXCC entities in 2014 from the mobile.

Our 2014 QSOs By Band

Our 2014 QSOs By Band

 We were active on all of the HF bands this year. We made our first contacts on the 60m band and I was able to focus on the 6m band and earn a VUCC Operating Award (100 grid squares worked and confirmed) on that band. Anita and I also made our first DX contacts to Europe on 6m in 2014. Anita took quite an interest in the 160m band and she is working on a Worked All States Operating Award on this band. Our operating time using weak signal and satellite modes on the 2m and 70cm bands was limited to a few contacts this year. I did make my first contacts through LEO Satellites in 2014.

We

Our 2014 QSOs By Mode

Our 2014 QSOs By Mode

We mostly operated in the SSB phone mode in 2014. Anita and I both continue to work on our CW skills and we managed a little over 800 QSOs using CW in 2014. Anita was very active in the RTTY mode as part of her RTTY contesting efforts.

K2K New Hampshire QSL!

13 Colonies K2K New Hampshire QSL!

All of this operating resulted in quite a bit of QSL activity. We sent a total of almost 4,200 QSL cards in 2014!

We again made a video showing all of our contacts around the world in 2014. As you can see from the video, we were fortunate to work quite a bit of DX in 2014.

6M VUCC Operating Award

Fred’s 6M VUCC Operating Award

All of this operating helped Anita and me to make some progress on operating awards this year. In addition to earning a 6M VUCC, I also completed a Worked All States Award on all 9 HF bands 160m-10m. I was also able to complete several nice regional operating awards (Worked All Europe TOP Plaque, Worked All VK Call Areas and Worked All Africa) as well upgrading my DXCC Challenge Award to the 1,500 Band Country level. Anita completed her JARL JCC Award (she worked 100+ Cities in Japan) as well as her Worked All States Triple Play Award (all states on SSB, CW and Digital via LoTW).

Anita and I had a lot of fun with Amateur Radio in 2014. We are looking forward to another great year of HAM Radio fun in 2015. We hope to share some of what we learn and our experiences with our readers here on our Blog.

– Fred (AB1OC)

What Is DX’ing All About?


3B8FQ

QSL Card From Rachid, 3B8FQ, on Mauritius Island

I came across a great video this morning – an excellent introduction to DX’ing. For me, this video really communicates well what DX’ing is all about. Chasing DX is a part of our hobby that provides the chance to meet many new friends around the world, learn about culture and geography and make some amazing contacts. Take some time to watch the video – I think our readers will enjoy it!

– Fred (AB1OC)